Synthesis and post-translational assembly of intermediate filaments in avian erythroid cells: Vimentin assembly limits the rate of synemin assembly

Abstract

The assembly of vimentin intermediate filaments and the high molecular weight filament crosslinking protein, synemin, was studied in erythroid cells from 10-day chicken embryos. Pulse labeling studies show that newly synthesized vimentin is present both in a Triton X-100-insoluble form and in a soluble form. The incorporation of labeled vimentin into the insoluble fraction increases linearly with time, while the soluble pool of labeled vimentin saturates quickly. In contrast, synemin accumulates rapidly in the Triton X-100-soluble fraction and begins to accumulate in the insoluble fraction only after a considerable lag of time. Pulse-chase studies reveal that the detergent-soluble pools of both vimentin and synemin contain precursors for their post-translational assembly into detergent-insoluble filaments and that the half-life of soluble synemin is about twice as long as that of soluble vimentin. Immunoprecipitation of solubilized filaments with synemin antiserum precipitates vimentin with synemin. On the other hand, soluble vimentin does not coimmunoprecipitate with soluble synemin. These results suggest that, in the assembly of vimentin and synemin into intermediate filaments, vimentin filament elongation generates synemin binding sites, and thus the rate of vimentin filament elongation limits the rate of synemin assembly.

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